UNIPROT:P01275 - FACTA Search

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To produce a 125I-labelled glucagon suitable for radioligand assays, we studied the influence of variations in the lactoperoxidase iodination method. Both the degree of iodine substitution and the formation of monoiodo- or diiodo-tyrosines were pH dependent. The substitution increased and the diiodo-/monoiodotyrosine ratio decreased when pH increased. These two factors affected the immunoreactivity of the iodoglucagon relatively independently of each other. It was found that iodination at pH 10.0 with an average of 0.3 gatom I/mol glucagon resulted in 125I-labelled glucagon with higher immunoreactivity and stability than that produced at the conventional pH 7.5 and 8.5.
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PMID:Improved radioiodination of glucagon with the lactoperoxidase method. Influence of pH on iodine substitution. 0 74

The binding and action of glucagon at its receptor in hepatic plasma membranes have been compared, as a function of pH, with that of glucagon containing iodotyrosyl residues. Iodinated glucagon, at pH 7.0 and below, binds to the receptor and activates adenylate cyclase with an affinity about threefold higher than that of native glucagon. At pH 8.5, the affinity of the receptor for native glucagon is the same as that seen at pH 7.0. However, iodinated glucagon binds with a lowered affinity with increasing pH. The decreased affinity of the iodinated hormone correlates with ionization of the iodotyrosyl phenoxy groups, which has a pKa of 8.2. It is suggested that the decreased affinity is actually due to the inability of the ionized iodoglucagon to bind to the receptor. The relative potency of native and iodoglucagon will depend, therefore, on the concentrations of ionized and un-ionized species of iodoglucagon, which in turn depend on the pH of the medium. We conclude that incorporation of iodine atoms in the tyrosyl residues of glucagon has two major effects: (i) the iodine atom increases hydrophobic interaction of the hormone with the receptor and (ii) ionization of the phenoxy groups results in the loss of biological activity possibly as the result of loss of hydrogen bonding capability. Thus, the tyrosyl residues in glucagon are critically involved in the function of the hormone.
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PMID:Effects of iodination of tyrosyl residues on the binding and action of glucagon at its receptor. 0 75

A radioimmunoassay of the lipolytic peptide P-LF II D from porcine pituitaries is described. The assay is performed with 125-iodine labeled P-LF II D and with antisera either from guinea pigs or from rabbits. Bound antigen is separated from the free by double antibody technique. No cross reaction is observed with gamma lipotropin, peptide B, secretin, glucagon, isoproterenol. Due to contamination P-LF II C, beta lipotropin and human growth hormone displace the tracer when added at large doses. Complete cross reaction is observed between porcine 1-39 ACTH and P-LF II D. Specificity of this reaction is demonstrated by the increase of cross reaction, when ACTH fragments of increasing length of the polypeptide chain are used (1-23 ACTH, 1-24 ACTH and 1-28 ACTH).
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PMID:Studies on the pituitary "Fettstoffwechselhormon". VIII. Radioimmunoassay of the lipolytic factor P-LF II D. 21 94

Five patients, 4 men and 1 woman, had adult-onset and slowly progressive weakness. There was distal wasting in 2, hepatomegaly in 3, and congestive heart failure in 2. Electromyography showed a mixed pattern with abundant fibrillations. Serum creatine phosphokinase was increased 5- to 45-fold. Blood glucose failed to respond to epinephrine or glucagon, and venous lactate did not rise after ischemic exercise. Muscle biopsy showed vacuolar myopathy affecting both fiber types. By electron microscopy the vacuoles corresponded to large pools of glycogen not limited by a membrane. Glycogen concentration was 3 to 5 times normal in muscle and 7 to 21 times normal in erythrocytes. In the presence of iodine, muscle glycogen showed a spectrum characteristic of phosphorylase-limit-dextrin. Debrancher activity was measured by a spectrophotometric assay and by a radioactive reverse reaction. The activity was lacking in muscle and erythrocytes of 4 patients according to both assays; in 1 patient the reverse reaction was not impaired. Though previously reported in only 5 patients, debrancher deficiency myopathy may not be rare and should be considered in the differential diagnosis of adult-onset hereditary myopathies.
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PMID:Debrancher deficiency: neuromuscular disorder in 5 adults. 28 18

The methylation of the single methionine residue of glucagon is accomplished at a pH of 3.5 in 8 M urea with methyl iodide. The reaction product is a soluble sulfonium derivative, S-methylglucagon, which can be isolated in a highly purified form. This derivative is characterized by amino acid analysis and its effect on the adenylyl cyclase system of rat liver plasma membranes. S-Methylglucagon does stimulate the adenylyl cyclase system; however, its activity is approximately 500 times less than that observed with the native hormone. The solubility of this derivative is great enough to allow for further modifications of the molecule which can be followed at a later stage by demethylation. Demethylation of S-methylglucagon regenerates the original covalent structure and is accomplished by treatment with Cleland's reagents at a pH of 10.5. The regenerated hormone is indistinguishable from native glucagon by its amino acid composition and its ability to stimulate the adenylyl cyclase system. The entire methylation-demethylation reaction sequence has been carried out with yields that approach 75%. The technique is suitable for the isotopic enrichment of native glucagon and may well be applicable to selected other methionine-containing peptides.
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PMID:Methylation of glucagon, characterization of the sulfonium derivative, and regeneration of the native covalent structure. 58 56

Glucagon was iodinated with the lactoperoxidase method at pH 10.0 in the presence of propylene glycol using a substitution of 0.3 g-atom I/mol glucagon. Under these conditions the reactivity of the iodine to tyrosine at position 13 is found to be 4-fold that of the tyrosine at position 10. The amount of diiodotyrosine was less than one-twentieth that of the monoiodotyrosine at either tyrosine residue. Relatively pure monoiodo[125I]tyrosine-13-glucagon can be separated from other iodoglucagons by means of DEAE-chromatography. Such a homogeneous preparation with a known position of the iodine makes it possible to study a specific interaction between the monoiodoglucagon and the glucagon antisera or the glucagon receptor.
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PMID:Preparation of monoiodotyrosine-13-glucagon. 85 7

Iodinated derivatives of glucagon containing an average of 1 to 5 g-atoms of 127I per mol have been prepared by reacting the hormone with increasing amounts of iodine monochloride. Their iodoamino acid composition has been determined by ion-exchange chromatography and electrophoresis, following hydrolysis by pronase. Iodination of the two tyrosyl residues occurs first and is nearly complete after addition of a 4-fold molar excess of ICl. Iodination of the single histidyl residue is a later event and does not exceed an average of one atom per residue. Hydrolysis of iodoglucagon by trypsin and subsequent separation of the iodotyrosyl peptides shows that iodine is equally distributed between tyrosyl residues 10 and 13. Crude iodoglucagon containing an average of 1 g-atom of iodine per mol has been resolved into several components of differing iodine content and iodoamino acid composition by chromatography on DEAE-cellulose. Monoiodoglucagon isolated by this procedure shows a single band when analyzed by polyacrylamide gel electrophoresis. Iodoglucagons containing an average of 1 to 4 g-atoms of iodine per mol are more potent than native glucagon in their ability to stimulate adenylate cyclase activity and to bind to glucagon receptors of liver cell membranes of the rat. The maximal increase in biological potency occurring upon iodination is about 5-fold with respect to adenylate cyclase activity, and 2-fold with respect to binding to receptors; tetra and triiodinated derivatives show, respectively, the highest potency. Similar effects occur whether inactivation by liver membranes is inhibited or not, indicating an enhancement in the intrinsic affinity of iodoglucagon for the receptors. Iodination beyong 4 g-atoms per mol slightly decreases the affinity of the hormone for adenylate cyclase and for the receptors. Iodination causes a 2-20 fold decrease in the ability of liver plasma membranes and of blood plasma to inactivate glucagon in vitro; these effects correlate with the degree of iodination. With liver microsomal membranes, a decrease in glucagon inactivation occurs only at iodine contents exceeding 4 g-atoms per mol, and lower degrees of iodination result in opposite effects. Monoiodination causes a 4-6-fold increase in the plasma concentration of glucagon within the first 18 min following a single intrvenous injection of the hormone to rats. More extensive iodination results, in addition, in a marked decrease in the rate of dissappearance of glucagon from the blood. The immunological reactivity of glucagon is little affected by monoidination, but strongly depressed by higher degrees of iodination...
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PMID:Iodoglucagon. Preparation and characterization. 114 Feb 1

In experiments with rabbits, glucagon prolonged the half-period of absorption of sodium iodide 125J in the left ventricular myocardium. Regitine prevented acceleration of the heart rate and impairment of capillary flow after glucagon. In healthy rabbits hippurate 125J clearance was unaffected by glucagon. After injury of the heart muscle by injection of silver nitrate solution into the left ventricular wall and depression of blood pressure, glucagon partly normalized renal clearance of hippurate 125J.
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PMID:The influence of glucagon on the blood supply of the heart and kidneys in rabbits. 121 13

Following optimization of the reaction conditions, e.g. concentration of oxidizing agents, reaction time, volume of reaction mixture, and pH, chloramine T and the new iodination reagent, Iodogen, were compared for their effectiveness in radioiodination of insulin, glucagon, human growth hormone (hGH), and rabbit anti-mouse IgG. The radioactive peptide hormones prepared were analyzed for the presence of aggregate and breakdown products by polyacrylamide gel electrophoresis (PAGE) at pH 8.9, the rabbit anti-mouse IgG was tested for the presence of low molecular weight damage products by gel filtration on Sephadex G-50. The results demonstrate that with respect to iodine incorporation, specific activity, and immunological reactivity either method can be used to prepare under carefully controlled conditions a wide range of tracers with high specific activity at minimal oxidation damage. These tracers are shown to be highly suitable in radioimmunoassays after previous purification by PAGE and gel filtration, respectively.
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PMID:Radioiodination of peptide hormones and immunoglobulin preparations: comparison of the chloramine T and iodogen method. 218 39

Accidental ingestion and overdose of medications used in thyroidal illnesses may occur because of the frequency of these diagnoses. This review discusses acute overdosage of 4 groups of medicines. Acute ingestion of thyroid replacement medications occurs very frequently. Overdosage in children is usually asymptomatic and a benign condition; after evacuation of the stomach, propranolol may be used to treat symptomatic children. Other therapeutic regimens are rarely indicated in this age group. Ingestions of large amounts of antithyroid medications occur very rarely and limited information regarding treatment is available in the medical literature. Acute ingestion of iodine often results in corrosive injury of the gastrointestinal tract and renal damage. Cardiopulmonary collapse secondary to circulatory failure, oedema of the epiglottis and aspiration pneumonias may cause death. Administration of starch and sodium thiosulphate, maintenance of airway and stabilisation of circulation are the major components of therapy. Acute overdosage of beta-blockers is uncommon but can be lethal. Patients may appear well initially but they can suddenly develop convulsions and profound cardiovascular collapse requiring instant aggressive therapy. Potassium and glucose concentrations should be monitored. The usage of atropine, isoprenaline (isoproterenol), glucagon and prenalteral is discussed.
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PMID:Clinical features and management of overdosage with thyroid drugs. 246 Jul 21

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